Snap ring design with anti-rotation structures at outer diameter

ABSTRACT

This invention relates to a method of eliminating rotation of a snap ring, and more specifically, to an anti-rotation feature on the outer diameter of a gapped snap ring. The invention prevents rotation of the snap ring within the housing in which it is assembled. This is done to prevent the gap, which causes a mechanical imbalance, from changing position within the housing. This enables fixed position balancing mechanisms to be effective in balancing the assembly. A locking feature is provided that is adapted to lock the snap ring in a snap ring groove, preventing the snap ring gap from rotating within the snap ring groove. The locking feature comprises at least one locking feature crest positioned on the outer diameter of the snap ring.

TECHNICAL FIELD

This invention relates to a method of resisting rotation of a snap ring,and more specifically, to anti-rotation features on or at the outerdiameter of the snap ring.

BACKGROUND OF THE INVENTION

A snap ring is generally employed to retain a part within a housingassembly. The shape of the snap ring is generally circular, with a gapbetween its ends to allow for insertion of the snap ring into thehousing assembly. These features may produce a mechanical imbalance ofthe assembly as the snap ring rotates with the rotating housing. In manyapplications, the parts being retained by the snap ring, such as a gearor clutch component, may cause the snap ring to gradually rotate withinthe housing, changing the position of the gap. The changing position ofthe gap inside of the housing may change the balance of the assembly.

SUMMARY OF THE INVENTION

This invention relates to a method of resisting rotation of a snap ring,and more specifically, to an anti-rotation feature on or at the outerdiameter of the snap ring.

The invention prevents or resists rotation of the snap ring within thehousing in which it is assembled. This is done to prevent the gap, whichmay cause a mechanical imbalance, from changing position within thehousing. This enables fixed position balancing structures to beeffective in balancing the assembly. The elimination of rotation of thesnap ring will also reduce wear of the snap ring and housing used in theassembly.

A method is provided of limiting movement and thereby facilitatingbalance of a gapped snap ring in a snap ring groove between rotatableparts comprising positioning a locking structure on the snap ring insufficiently interfereable relationship with the snap ring groove,whereby to resist rotation of the snap ring within the snap ring groove.

In one aspect of the invention, the locking structure is a locking crestoutboard of the snap ring. In another aspect of the invention, thelocking crest sufficiently interferes by creating high local contactstress between the locking crest and the snap ring groove to resistrotation of the snap ring.

In another aspect of the invention, the locking crest is formed on anouter periphery of the snap ring. In another aspect of the invention,the outer periphery has an outer diameter, and the locking crest extendsat least partially over the outer diameter.

An improved snap ring is provided for retaining a part within a housing,the improvement including a locking structure on the snap ring,extendable sufficiently toward the housing to retain the snap ring in aposition with respect to the housing, whereby to prevent the snap ringfrom rotating with respect to the housing.

In another aspect of the invention, the locking structure includes atleast one locking crest positioned at the outer diameter of the snapring. In another aspect of the invention, the locking structure createshigh local contact stress between the locking crest and the snap ringgroove to resist rotation of the snap ring.

The above features and other features and advantages of the presentinvention are readily apparent from the following detailed descriptionof the best modes for carrying out the invention when taken inconnection with the accompanying drawings.

BRIEF DESCRIPTION OF THE DRAWINGS

FIG. 1 is a sectional view, partly in elevation, of a housing assemblyillustrating an improved snap ring;

FIG. 2 is a cross-sectional view of the improved snap ring, taken alongline 2-2 as shown in FIG. 1;

FIG. 3 is a schematic fragmentary view of a locking crest; and

FIG. 4 is a schematic cross-sectional view of a locking feature on animproved snap ring,

DESCRIPTION OF THE PREFERRED EMBODIMENTS

A method of eliminating rotation of a snap ring gap is provided. Morespecifically, an improved snap ring is provided with anti-rotationfeatures or structure at or on the outer diameter of the snap ring.

FIG. 1 is a sectional view, partly in elevation, of a housing assembly10 illustrating an improved snap ring 12. FIG. 2 is a schematiccross-sectional view of the improved snap ring 12, taken along line 2-2as shown in FIG. 1. The view illustrated in FIG. 1 is taken along line1-1 shown in FIG. 2. The housing assembly 10 includes a snap ring 12employed to retain a part (not shown) inside a housing 14. The retainedpart may be a gear or another suitable part. The snap ring 12 isinserted into a snap ring groove 16, which is part of the housing 14.

The snap ring 12 has a gap 17, a snap ring outer diameter 18 and a snapring face 20, as shown in FIG. 1. The snap ring outer diameter 18 has athickness characterized by an outer diameter radius 22 on both sides ofthe snap ring face 20. Before installation the snap ring 12 has a largerdiameter than the snap ring groove 16 that is part of the housing 14.The difference in diameter of the snap ring 12 causes a force betweenthe snap ring outer diameter 18 and the snap ring groove 16 after beingassembled into the housing 14 using conventional snap ring assemblytools and methods. During assembly, the snap ring 12 is compressed orcontracted so as to be able to fit into the snap ring groove 16. Thesnap ring 12 may rotate within the snap ring groove 16 due to loading ofthe housing 14 or the components that are retained by the snap ring 12.

The improved snap ring 12 has a locking feature 24, as shown in FIG. 1.The locking feature 24 includes at least one locking structure, such asa first locking structure 26 and a second locking structure 28. Thefirst locking structure 26 and a second locking structure 28 are shownin FIG. 3. Each locking structure may include a plurality of structurallocking crests 30. FIG. 4 illustrates the locking crests 30. The firstlocking structure 26 shown in FIG. 3 has two locking crests 30A and 30B.The second locking structure 28 shown in FIG. 3 has two locking crests30C and 30D. The locking crests 30 are small and abrasive and lock thesnap ring 12 into the snap ring groove 16 and do not allow substantiallyany rotation of the snap ring 12. The locking feature 24 sufficientlyinterferes with the snap ring groove 16 by creating high local contactstress between the locking crests 30 and the snap ring groove 16. Thehigh local contact stress increases the friction forces to substantiallyresist rotation of the snap ring 12.

The locking crests 30 are outboard of the snap ring 12. The lockingcrests 30 may be formed on the snap ring outer diameter 18. The snapring outer diameter 18 refers to the outer periphery 18 of the snap ring12. The front side 32 and rear side 34 of the snap ring 12 are shown inFIG. 2. The locking crests 30 extend sufficiently around to at leastpartially cover the snap ring outer diameter 18 and the snap ring face20 on both the front side 32 and rear side 34 of the snap ring 12. Thefirst and second locking structures 26 and 28 are centered on the outerdiameter radius 22 and may extend onto the snap ring outer diameter 18and snap ring face 20.

With the locking crest 30 extending over both the snap ring outerdiameter 18 and snap ring face 20, the locking feature 24 can apply ahigh contact stress to either of the snap ring groove radii 36 and 38 oreither the first face 40 or second face 42 of the snap ring groove 16 orthe snap ring groove outer diameter. The point of stress may depend uponwhether the snap ring 12 has a retaining force applied to the front side32 and rear side 34 of the snap ring face 20 or whether there iscompression or contraction of the snap ring 12.

Thus, an apparatus is provided for limiting movement of a gapped snapring 12 in a snap ring groove 16 between rotatable parts comprisingpositioning a first locking structure 26 on the snap ring 12 insufficiently interfereable relationship with the snap ring groove 16,whereby to resist rotation of the snap ring 12 within the snap ringgroove 16, thereby facilitating balancing of the assembly.

An improved snap ring 12 is provided for retaining a part within ahousing 14, the improvement comprising a first locking structure 26and/or second locking structure 28, on the snap ring 12, extendingsufficiently toward the housing 14 to retain the snap ring 12 in aposition with respect to the housing 14, whereby to prevent the snapring 12 from rotating with respect to the housing 14.

The invention allows for the use of an improved snap ring 12 havingopposed ends 44 and 46 contractible for installation of the snap ring 12and sufficiently expandable and configured to resist rotation of thesnap ring 12 after the installation. The configuration of the snap ring12 interferes with the snap ring groove 16 to resist rotation of thesnap ring 12 after the installation.

Formation of Locking Feature

The locking feature 24 may be formed during the manufacture of the snapring 12 with a straight knurled finish on or at the outer diameter of aforming tool (not shown). The sharp edge of the forming tool will indentthe snap ring 12 to form a locking feature valley 48 and cause thematerial in the locking feature valley 48 to flow up and form thelocking crests 30. The height of the locking crests 30, number oflocking features 24, number of locking crests 30 in each locking feature24 and spacing between individual locking crests 30, may be varieddepending on the application. For example, the distance between the peakor tip 50 of the locking crest 30 and locking feature valley 48 may beset at 0.3 mm in a typical application. A plurality of locking features24 will resist movement of the snap ring 12 inside of the housing 14.

While the best modes for carrying out the invention have been describedin detail, those familiar with the art to which this invention relateswill recognize various alternative designs and embodiments forpracticing the invention within the scope of the appended claims.

1. An improved snap ring for retaining a part within a housing, saidimprovement comprising: a locking structure on said snap ring,extendable sufficiently toward said housing to retain said snap ring ina position with respect to said housing, whereby to prevent said snapring from rotating with respect to said housing.
 2. The improved snapring of claim 1, wherein said locking structure comprises at least onelocking crest positioned at said outer diameter of said snap ring. 3.The improved snap ring of claim 2, including a snap ring groove in saidhousing, wherein said locking structure creates high local contactstress between said locking crest and said snap ring groove to resistrotation of said snap ring.
 4. The improved snap ring of claim 2,wherein said outer diameter of said snap ring has a thicknesscharacterized by an outer diameter radius.
 5. The improved snap ring ofclaim 4, wherein said locking crest covers said outer diameter,extending over said outer diameter radius of said snap ring.
 6. Animproved snap ring having opposed ends contractible for installation ofthe ring and sufficiently expandable and configured to resist rotationof said ring after said installation.
 7. The improved snap ring of claim6, including a snap ring groove in said housing, wherein theconfiguration of said snap ring interferes with said groove to resistrotation of said ring after said installation.
 8. A method of limitingmovement and thereby facilitating balance of a gapped snap ring in asnap ring groove between rotatable parts comprising: positioning alocking structure on said snap ring in sufficiently interfereablerelationship with the snap ring groove, whereby to resist rotation ofsaid snap ring within said snap ring groove.
 9. The method of claim 8,wherein said locking structure is a locking crest outboard of said snapring.
 10. The method of claim 9, wherein said locking crest sufficientlyinterferes by creating high local contact stress between said lockingcrest and said snap ring groove to resist rotation of said snap ring.11. The method of claim 9, wherein said locking crest is formed on anouter periphery of said snap ring.
 12. The method of claim 11, whereinsaid outer periphery has an outer diameter, and said locking crestextends at least partially over said outer diameter.
 13. The method ofclaim 11, wherein said locking crest is formed by indenting said outerperiphery of said snap ring with a sharp edge of a forming tool.